The Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) is a Chinese national scientific research facility operated by the National Astronomical Observatories, Chinese Academy of Sciences. It is a special reflecting Schmidt telescope with 4000 fibers in a field of view of 20 deg$^{2}$ in the sky. Until July 2017, LAMOST has completed its pilot survey which was launched in October 2011 and ended in June 2012, and the first five years of regular survey which was initiated on September 2012. After this six-year-survey, we totally obtain 9,017,844 spectra, which consist of stars, galaxies, quasars and other unknown objects$^{[1-7]}$. Now, the fifth data release (DR5) has published online (http://dr5.lamost.org/v1/catalogue), and released data products include:
In the following section 2, we introduce the released FITS file in detail, and present three parameter catalogs in section 3.
In this data release, over nine million FITS files are published on-line, and they are named in the form of ‘spec-MMMMM-YYYY_spXX-FFF.fits’. ‘MMMMM’, ‘YYYY’, ‘XX’, and ‘FFF’ represent the local modified Julian day (LMJD) which is a non-negative integer, the plan identity string (PLANID), the spectrograph identity number which is between 1 and 16, and the fiber identity number which is in the range of 1 to 250$^{[8]}$ respectively. In addition, we can also get the LAMOST designation for an object from the DESIG keyword, and it is named in the form ‘LAMOST JHHMMSS.ss+DDMMSS.ss’, where ‘HHMMSS.ss’ is right ascension in unit of HMS, and ‘+DDMMSS.ss’ is declination in unit of DMS.
A FITS file should be composed by a primary header data unit (HDU), a optional conforming extensions and other optional special records. A LAMOST FITS file in this release only contains the primary HDU, and it is followed by a primary data array. Sub-section 2.2.1 will introduce keywords of the primary header, and sub-section 2.2.2 will describe the primary data array.
We divided keywords of the primary FITS header into eight groups, and they are mandatory keywords, file information keywords, telescope parameter keywords, observation parameters keywords, spectrograph parameters keywords, weather condition keywords, data reduction parameter keywords and spectra analysis results keywords respectively. We will explain each keyword as follows.
Mandatory keywords are required in every Header Data Unit (HDU), and their value must be written in fixed format.
SIMPLE = T /Primary Header created by MWRFITS v1.8
BITPIX = -32 /
NAXIS = 2 /
NAXIS1 = 3909 /
NAXIS2 = 5 /
EXTEND = T /Extensions may be present
SIMPLE
Keyword --- It is required to be the first keyword in the primary header of all FITS file. The value field shall contain a logical constant with the value T if the file conforms to this standard. This keyword is mandatory for the primary header and is not permitted in extension headers. A value of F signifies that the file does not conform to this standard.
BITPIX
Keyword --- The value field shall contain an integer, and it shall specify the number of bits that represent a data value. A value of -32 represents IEEE single precision floating point.
NAXIS
Keyword --- The value field shall contain a non-negative integer no greater than 999, representing the number of axes in the associated data array. A value of zero signifies that no data follow the header in the HDU.
NAXIS1
and NAXIS2
Keywords --- The value field of these two indexed keywords shall contain a non-negative integer, representing the number of elements along axis n of a data array. The NAXIS1 keyword represents the number of wavelength array, i.e., the column number of the primary data array, and the NAXIS2 keyword indicates the row number of the primary data array.
EXTEND
Keyword --- The value field shall contain a logical value indicating whether the FITS file is allowed to contain conforming extensions following the primary HDU. This keyword may only appear in the primary header and must not appear in an extension header. If the value field is T then there may be conforming extensions in the FITS file following the primary HDU. This keyword is only advisory, so its presence with a value T does not require that the FITS file contains extensions, nor does the absence of this keyword necessarily imply that the file does not contain extensions$^{[9]}$.
FILENAME= 'spec-57093-HD154717N140655V01_sp01-135.fits' /
OBSID = 5935 / Unique number ID of this spectrum
AUTHOR = 'LAMOST Pipeline' / Who compiled the information
DATA_V = 'LAMOST DR3' / Data release version
EXTEN0 = 'Flux, Inverse, Wavelength, Andmask, Ormask' /
N_EXTEN = 1 / The extension number
EXTNAME = 'Flux ' / The extension name
ORIGIN = 'NAOC-LAMOST' / Organization responsible for creating this file
DATE = '2015-12-16T10:01:21' / Time when this HDU is created (UTC)
FILENAME
Keyword --- The value field shall contain a character string giving the name of this FITS file. Take the ‘ spec-56094-kepler05F56094_sp01-020.fits ‘ as an example, ‘56094’ is the local modified Julian day, ‘kepler05F56094’ is the plan ID, ‘sp01’ is the spectrograph ID, and ‘020’ is the Fiber ID.
OBSID
Keyword --- The value field shall a non-negative integer giving the number ID of this spectrum.
AUTHOR
Keyword --- This keyword contains a string constant ‘LAMOST Pipline’, which represents the author who produce this file.
DATA_V
Keyword This keyword contains a string constants ‘LAMOST DR3’, which represents the data release version.
EXTEN0
Keyword --- This keyword contains a string constant ‘Flux Inverse Subcontinuum Andmask Ormask’ explaining each row of the primary data array in a primary HDU.
N_EXTEN
Keyword --- The value field shall contain an integer giving the extension number of a FITS file.
EXTNAME
Keyword --- This keyword contains a character string to be used to distinguish among different extensions of the same type in A FITS file. Within this context, the primary array should be considered as equivalent to an IMAGE extension.
ORIGIN
Keyword --- This ORIGIN keyword contains a string constant ‘NAOC-LAMOST’, which indicates the Organization responsible for this FITS file. ‘NAOC’ represents the abbreviation of National Astronomical Observatories, Chinese Academy of Sciences.
DATE
Keyword --- The value field shall contain a character string giving the UTC time when this FITS file is created.
TELESCOP= 'LAMOST ' / GuoShouJing Telescope
LONGITUD= 117.58 / [deg] Longitude of site
LATITUDE= 40.39 / [deg] Latitude of site
FOCUS = 19964 / [mm] Telescope focus
CAMPRO = 'NEWCAM ' / Camera program name
CAMVER = 'v2.0 ' / Camera program version
TELESCOP
Keyword --- This keyword contains a string constant ‘LAMOST’ giving the name of our telescope.
LONGITUD
Keyword --- The keyword contains a floating-point constant, which provide the longitude of Xinglong station where LAMOST is mounted on.
LATITUDE
Keyword --- The keyword contains a floating-point constant, which provide the latitude of Xinglong station.
FOCUS
Keyword --- The FOCUS keyword gives the telescope focus, and its unit is millimeter.
CAMPRO
Keyword --- The value field contain a string constant ‘NEWCAM’, which shows the name of camera.
CAMVER
Keyword --- The value field contain a character string, which gives the present camera program version.
DATE-OBS= '2015-03-11T20:30:51.01' / The observation median UTC
DATE-BEG= '2015-03-12T04:20:50.0' / The observation start local time
DATE-END= '2015-03-12T05:24:14.0' / The observation end local time
LMJD = 57093 / Local Modified Julian Day
MJD = 57092 / Modified Julian Day
LMJMLIST= '82214180-82214194-82214207-82214220-82214234' / Local Modified Julian
PLANID = 'HD154717N140655V01' / Plan ID in use
RA = 237.180458 / [deg] Right ascension of object
DEC = 12.408442 / [deg] Declination of object
RA_OBS = 237.180458 / [deg] Right ascension during observing
DEC_OBS = 12.408442 / [deg] Declination during observing
OFFSET = F / Whether there's a offset during observing
OFFSET_V= 0.00 / Offset value in arcsecond
DESIG = 'LAMOST J154843.30+122430.3' / Designation of LAMOST target
FIBERID = 135 / Fiber ID of Object
CELL_ID = 'F1320 ' / Fiber Unit ID on the focal plane
X_VALUE = -108.025 / [mm] X coordinate of object on the focal plane
Y_VALUE = 595.525 / [mm] Y coordinate of object on the focal plane
OBJNAME = '231542722565075' / Name of object
OBJTYPE = 'Star ' / Object type from input catalog
TSOURCE = 'LEGUE_LCH' / Name of input catalog
TCOMMENT= '14818734244164852' / Target information
TFROM = 'LCH000003' / Target catalog
FIBERTYP= 'Obj ' / Fiber type of object
MAGTYPE = 'gri ' / Magnitude type of object
MAG1 = 14.06 / [mag] Mag1 of object
MAG2 = 13.32 / [mag] Mag2 of object
MAG3 = 13.05 / [mag] Mag3 of object
MAG4 = 99.00 / [mag] Mag4 of object
MAG5 = 99.00 / [mag] Mag5 of object
MAG6 = 99.00 / [mag] Mag6 of object
MAG7 = 99.00 / [mag] Mag7 of object
OBS_TYPE= 'OBJ ' / The type of target (OBJ, FLAT, ARC or BIAS)
OBSCOMM = 'Science ' / Science or Test
RADECSYS= 'FK5 ' / Equatorial coordinate system
EQUINOX = 2000.00 / Equinox in years
LAMPLIST= 'lamphgcdne.dat' / Arc lamp emission line list
SKYLIST = 'skylines.dat' / Sky emission line list
NEXP = 10 / Number of valid exposures
NEXP_B = 5 / Number of valid blue exposures
NEXP_R = 5 / Number of valid red exposures
EXPT_B = 3000.00 / [s] Blue exposure duration time
EXPT_R = 3000.00 / [s] Red exposure duration time
EXPTIME = 3000.00 / [s] Minimum of exposure time for all cameras
BESTEXP = 82214180 / MJM of the best exposure
SCAMEAN = 7.30 / [ADU] Mean level of scatter light
DATE-OBS
Keyword --- The value field shall contains a character string, which gives the median moment UTC of multiple exposures.
DATE-BEG
Keyword --- The value field shall contains a character string giving the observation start Beijing Time.
DATE-END
Keyword --- The value field shall contains a character string, which provide the observation end Beijing Time.
LMJD
Keyword --- The value field shall a non-negative integer giving the local modified Julian day.
MJD
Keyword --- The value field shall a non-negative integer giving the modified Julian day.
LMJMLIST
Keyword --- The value field shall contains a character string, which shows a list of local modified Julian minute of n times exposures.
PLANID
Keyword --- The value field shall contains a character string providing the plan name of the target.
RA
Keyword --- The value field shall contains a non-negative real floating-point number, which gives the right ascension of target from the input catalog.
DEC
Keyword --- The value field shall contains a real floating-point number, which gives the declination of target from the input catalog.
RA_OBS
Keyword --- The value field shall contains a non-negative real floating-point number, which gives the pointing right ascension of target during observation.
DEC_OBS
Keyword --- The value field shall contains a non-negative real floating-point number, which gives the pointing declination of target during observation.
OFFSET
Keyword --- The value field shall contains a boolean value, T(ure) or F(alse), which indicates if there is a fiber-offset for the target. The fiber-offset usually applied for the very bright stars (r<11) to avoid CCD saturation.
OFFSET_V
Keyword --- The value field shall contains a real floating-point number giving the offset value in unite of arcsec.
DESIG
Keyword --- The value field shall contains a character string, which indicates the name of LAMOST target. Like the name of SDSS target, numbers after the character ‘J’ and before ‘+’ represents RA in unit of HMS , and numbers after the character ‘+’ are DEC in unit of DMS.
FIBERID
Keyword --- The value field shall contains a non-negative integer between 1 and 250, which shows the fiber ID and shall be used together with the spectrograph ID.
CELL_ID
Keyword --- The value field shall contains a character string, which gives the fiber unit ID on the focal plane. LAMOST focal plane is divided into four quadrant named ‘EFGH’ respectively, the first character of this keyword represents the quadrant number, the first two numbers after the first character is the row number in this quadrant, and the next two numbers is the column numbers.
X_VALUE
and Y_VALUE
--- Keywords Their value field shall contain two real floating-point numbers, which give X and Y coordinates of target on the focal plane.
OBJNAME
Keyword --- The value field shall contains character string, giving the name ID of object that determined by the RA, DEC and HTM method$^{[10]}$.
OBJTYPE
Keyword --- The value field shall contains a character string giving the class of objects in input catalogs.
TSOURCE
Keyword --- The value field shall contains a character string which shows the name of organization or person who submit input catalog.
TCOMMENT
Keyword --- The value field shall contains a character string which shows the target ID from SDSS, UCAC4, PANSTAR and other catalogue.
TFROM
Keyword --- The value field shall contains a character string which shows input catalog submitted by an organization or a person determined by the TSOURCE.
FIBERTYP
Keyword --- The value field shall contains a character string, giving the type of fiber assigned to this target. This keyword has six values, i.e., Obj, Sky, F-std, Unused, PosErr and Dead. Obj means the fiber is assigned to a object, including star, galaxy and so on. Sky indicates the fiber is allocated to take skylight. F-std shows the fiber is used to take the light of a flux calibration standard star. Unused, PosErr and Dead mean the fiber is not used, goes to a wrong position, or does not work respectively.
MAGTYPE
Keyword --- The value field shall contains a character string, which shows the magnitude type of a target.
MAG1
, MAG2
, MAG3
, MAG4
, MAG5
, MAG6
and MAG7
Keywords The value field shall contains a real floating-point number between 0 and 100, giving the associated magnitudes of MAGTYPE keyword. For example, The MAGTYPE keyword is ‘ugrizjh’, the MAG1, MAG2, MAG3, MAG4, MAG5, MAG6 and MAG7 keywords provide the magnitudes of u, g, r, i, z, j and h filter respectively.
OBS_TYPE
Keyword --- The value field shall contains a character string giving the type of observation targets, which include object, flat, bias and arc lamp.
OBSCOMM
Keyword --- The value field shall contains a character string constant representing the observation purposes , which includes observations used for science researches and kinds of tests.
RADECSYS
Keyword --- The value field shall contains a character string giving the equatorial coordinate system based on the J2000 position.
EQUINOX
Keyword --- The value field shall contains a real floating-point number giving the standard epoch used at present.
LAMPLIST
Keyword --- The value field shall contains a character string giving the file name of arc lamp emission line list, which is used in the process of wavelength calibration.
SKYLIST
Keyword --- The value field shall contains a character string giving the file name of sky emission line list, which is used in the process of sky subtraction.
NEXP
, NEXP_B
and NEXP_R
Keywords --- The value field of these three keywords shall contain three non-negative integers, which provide numbers of exposures, and numbers of valid blue and red exposures respectively.
EXPT_B
and EXPT_R
Keywords --- The value fields of these two keywords shall contain two real floating-point numbers, which give exposure duration times of blue and red CCD.
EXPTIME
Keyword --- The value field shall contains a real floating-point, which gives the minimum of blue and red total exposures times.
BESTEXP
Keyword --- The value field shall contains a integer, which gives the local modified Julian minute of a exposure with maximum signal and noise ratio in n time exposures.
SCAMEAN
Keyword --- The value field shall contains a real floating-point giving the mean level of scatter light, which is the average flux of regions where there is no fiber and is at the left and right edge of a two dimension spectra image.
SPID = 1 / Spectrograph ID
SPRA = 236.8408024 / [deg] Average RA of this spectrograph
SPDEC = 12.0844527 / [deg] Average DEC of this spectrograph
SLIT_MOD= 'x2/3 ' / Slit mode, x1, x2/3 or x1/2
SPID
Keyword --- The value field shall contains a non-negative integer numbers between 1 and 16, which provides the spectrograph ID.
SPRA
and SPDEC
Keywords --- The value field of these two keywords shall contain two real floating-point numbers, which are the averages of RA and DEC of all objects in each spectrograph.
SLIT_MOD
Keyword --- The value field shall contains a character string giving the mode of slit, which includes x1, x2/3 and x1/2. At present, only mode x2/3 is available, which responds spectra resolution equals to 1800.
TEMPCCDB= -112.70 / [deg] The temperature of blue CCD
TEMPCCDR= -195.90 / [deg] The temperature of red CCD
SEEING = 2.60 / [arcsec] Seeing during exposure
MOONPHA = 17.59 / [day] Moon phase for a 29.53 days period
TEMP_AIR= ' ' / [deg] Temperature outside dome
TEMP_FP = 3.30 / [degree celsius] Temprature of the focalplane
DEWPOINT= ' ' / [deg]
DUST = ' ' / Reservation
HUMIDITY= ' ' /
WINDD = ' ' / [deg] Wind direction
WINDS = ' ' / [m/s] Wind speed
SKYLEVEL= ' ' / Reservation
TEMPCCDB
Keyword --- The value field shall contains a real floating-point number, which provides the temperature of blue CCD. The unit ‘degree’ represents centigrade degree.
TEMPCCDR
Keyword --- The value field shall contains a real floating-point number, which provides the temperature of red CCD. The unit ‘degree’ represents centigrade degree.
SEEING
Keyword --- The value field shall contains a real floating-point number giving seeing during exposure, which is calculated by manually measuring the full width at half maximum of guide star image.
MOONPHA
Keyword --- The value field shall contains a real floating-point number giving the moon phase.
TEMP_AIR
Keyword --- The value field shall contains a real floating-point number giving the temperature outside dome, which is measured by automatic weather instrument. The unit ‘degree’ represents centigrade degree.
TEMP_FP
Keyword --- The value field shall contains a real floating-point number giving the temperature of focal plane, which is measured by automatic weather instrument. The unit ‘degree’ represents centigrade degree.
DEWPOINT
Keyword --- The value field shall contains a real floating-point number giving the dew-point temperature, which is also measured by the automatic weather instrument. The unit ‘degree’ represents centigrade degree.
DUST
Keyword --- The value of this keyword is temporarily empty at present, because the dust measuring instrument is now in debugging, and we will write this parameters into fits header when problems are resolved.
HUMIDITY
Keyword --- The value field shall contains a real floating-point number between 0 and 1, which gives humidity in the air.
WINDD
Keyword --- The value field shall contains a real floating-point number which records the instantaneous wind direction when start exposure, and the direction of north is the 0 degree wind direction.
WINDS
Keyword --- The value field shall contains a real floating-point number which records the instantaneous wind speed when start exposure, and wind direction and speed are also measured also by the automatic weather instrument.
SKYLEVEL
Keyword --- This keyword is NULL now, because the instrument is debugging.
EXTRACT = 'aperture' / Extraction method
SFLATTEN= T / Super flat has been applied
PCASKYSB= T / PCA sky-subtraction has been applied
NSKIES = 105 / Sky fiber number
SKYCHI2 = 2.3 / Mean chi^2 of sky-subtraction
SCHI2MIN= 1.8 / Minimum chi^2 of sky-subtraction
SCHI2MAX= 3.2 / Maximum chi^2 of sky-subtraction
NSTD = 4 / Number of (good) standard stars
FSTAR = '148-064-236-094' / FiberID of flux standard stars
FCBY = 'auto ' / Standard stars origin (auto, manual or catalog)
HELIO = T / Heliocentric correction
HELIO_RV= -22.47678 / [km/s] Heliocentric correction
VACUUM = T / Wavelengths are in vacuum
NWORDER = 2 / Number of linear-log10 coefficients
WFITTYPE= 'LOG-LINEAR' / Linear-log10 dispersion
COEFF0 = 3.5682 / Central wavelength (log10) of first pixel
COEFF1 = 0.0001 / Log10 dispersion per pixel
WAT0_001= 'system=linear' /
WAT1_001= 'wtype=linear label=Wavelength units=Angstroms' /
CRVAL1 = 3.5682 / Central wavelength (log10) of first pixel
CD1_1 = 0.0001 / Log10 dispersion per pixel
CRPIX1 = 1 / Starting pixel (1-indexed)
CTYPE1 = 'LINEAR ' /
DC-FLAG = 1 / Log-linear flag
EXTRACT
Keyword --- The value field shall contains a character string, which indicates the method of spectrum extraction. In LAMOST spectra reduction pipeline, only the aperture method is applied to spectra extraction.
SFLATTEN
Keyword --- The value of this keyword shall be Boolean, which represents whether or not use the super flat. In LAMOST spectra reduction pipeline, super flat is used to make the fiber-to-fiber relative efficiency around 1, and it can be estimated through spline fitting the flat flux of all fibers in a spectrograph.
PCASKYSB
Keyword --- The value of this keyword shall be Boolean, which represents whether or not use the PCA method to subtract sky light. In LAMOST spectra reduction pipeline, the PCA method is used to subtract sky light at the wavelength range larger than 7200 angstrom.
NSKIES
Keyword --- The value field shall contains a integer, which shows the number of sky fiber in a spectrograph.
SKYCHI2
Keyword --- The value field shall contains a real floating-point, which gives the mean chi square of sky-subtraction. In the process of LAMOST spectra reduction, super sky is obtained by spline fitting m sky spectra. And thus, the chi square between the super sky and each sky spectra in an exposure, and the average chi square of m sky spectra can also be able to obtain. Assuming n times exposures, there will be 2n average chi square because of n blue spectra and n red spectra, and this keyword will be evaluated by calculating the mean value of these 2n average chi squares.
SCHI2MIN
Keyword --- The value field shall contains a real floating-point, which gives the minimum chi square of sky-subtraction. As mentioned above, there will be 2n average chi squares assuming n time exposures, and this keyword will be the minimum of these chi squares.
SCHI2MAX
Keyword --- The value field shall contains a real floating-point, which gives the maximum chi square of sky-subtraction. As mentioned above, there will be 2n average chi squares assuming n time exposures, this keyword will be the maximum of these chi squares.
NSTD
Keyword --- The value field shall contains a non-negative integer, which shows the number of flux standard stars with good spectra quality.
FSTAR
Keyword --- The value field shall contains a character string giving the fiber identity numbers of flux standard stars, which are separated by the symbol ‘-’.
FCBY
Keyword --- The value field shall contains a character string giving the selection methods of flux standard stars, which include auto, manual and catalog. Auto represents the standard stars are selected by the LAMOST reduction pipeline, manual means they are picked out by experienced staffs, and catalog indicates the standard stars are provided by the input catalog.
HELIO
Keyword --- The value of this keyword shall be Boolean, which represents whether or not to perform the heliocentric correction.
HELIO_RV
Keyword --- The value field shall contains a real floating-point, which gives the radial velocity used to carry out the heliocentric correction.
VACUUM
Keyword --- The value of this keyword shall be Boolean, which represents whether or not the LAMOST spectra is converted to vacuum wavelength.
NWORDER
Keyword --- The value of this keyword shall contains a integer, which gives number of linear-log10 coefficients.
WFITTYPE
Keyword --- The value field shall contains a character string giving linear-log10 dispersion.
COEFF0
Keyword --- The value field shall contains a real floating-point number, which provides central wavelength (log10) of first pixel.
COEFF1
Keyword --- The value field shall contains a real floating-point number giving log10 dispersion per pixel.
WAT0_001
Keyword --- The value field contains a character string.
WAT1_001
Keyword --- The value field contains a character string.
CRVAL1
Keyword --- The value field shall contains a real floating-point number, which gives the coordinate value of the reference pixel provided by the CRPIX1 keyword$^{[11]}$.
CD1_1
Keyword --- The value field shall contains a real floating-point giving the dispersion of per pixel.
CRPIX1
Keyword --- The value of this keyword shall contains a integer, which sets the reference pixel location on pixel axis $^{[11]}$.
CTYPE1
Keyword --- The value field shall contains a character string, which will have the value ‘LINEAR’ to define the wavelength axes to be linear$^{[12]}$.
DC-FLAG
Keyword --- The value of this keyword shall be Boolean, a value of 0 defines a linear sampling of the dispersion and a value of 1 defines a logarithmic sampling of the dispersion$^{[12]}$.
VERSPIPE= 'v2.7.5 ' / Version of Pipeline
CLASS = 'Unknown ' / Class of object
SUBCLASS= 'Non ' / Subclass of object
Z = -9999 / Redshift of object
Z_ERR = -9999 / Redshift error of object
ZFLAG = 'PIPELINE' / Which method computes the redshift
SNRU = 0.00 / SNR of u filter
SNRG = 0.00 / SNR of g filter
SNRR = 2.00 / SNR of r filter
SNRI = 0.00 / SNR of i filter
SNRZ = 0.88 / SNR of z filter
VERSPIPE
Keyword --- The value field shall contains a character string constant, which provides the version of LAMOST pipelines used to spectra processing and analysis. In this data release, the value of VERSPIPE is ‘v2.6.4’. It should be noted that, ‘v2.6’ is the version of spectra reduction pipeline, ‘v4’ is the version of spectra analysis pipeline, and ‘v2.6.4’ combines these two versions together.
CLASS
Keyword --- The value field shall contains a character string providing the classification result determined by the LAMOST spectra analysis pipeline, which includes ‘STAR’, ‘GALAXY’, ‘QSO’ or ‘Unknown’.
SUBCLASS
Keyword --- The value field shall contains a character string, which gives a sub-classification results for stars. This keyword provides a more detailed spectra type for F, G, K and M dwarfs, and spectra and photometric type for A type stars. For galaxies, quasars or unknown type objects, this keyword is set to ‘Non’ now.
Z
Keyword --- The value field shall contains a real floating-point number providing redshift for a target, which is determined mainly by the LAMOST spectra analysis pipeline. For the case that redshift is unable to calculate by the pipeline, it will be manually determined through measuring the shifts of some spectral line centers. If the quality of a spectrum is poor, or it is classified as ‘Unknown’, its redshift is artificially set to -9999.
Z_ERR
Keyword --- The value field shall contains a real floating-point number, which gives redshift error of a target. At present, the values of Z_ERR keywords are not yet published, and we will release redshift errors at the next data release in September of this year.
ZFLAG
Keyword --- The value field shall contains three possible methods to compute the Z value: ‘PIPELINE’, ‘EYE-CHECK’, and ‘LASP’.
SNRU
, SNRG
, SNRR
, SNRI
and SNRZ
Keywords --- The value fields of these five keywords shall contain five real floating-point numbers, which give the signal and noise ratios (S/Ns) of u, g, r, i and z bands. Using the center wavelength and band width, we can obtain the wavelength range of each SDSS band, and then the signal and noise ratio (S/N) in each band is the median value at each pixel in this band.
The primary data array has 5 rows and NAXIS1 (a keyword explained previously) columns, and table 1 explains the data in each row.
Table1: Primary data array of LAMOST fits file
Row Number | Data | Type |
---|---|---|
5 | Ormask | float |
4 | Andmask | float |
3 | WaveLength | float |
2 | Inverse Variance | float |
1 | Flux | float |
The primary data array of LAMOST FITS file is shown in table 1. The first row is flux, and the second row stores the ‘inverse variance’ of the uncertainties (one over sigma-squared), which can be used to estimate signal and noise ratio of each pixel (flux*(inverse variance) ^ 0.5). The third row stores wavelength, which can be directly used by users. The ‘andmask’ information in fourth row is a decimal integer determined by a six-bit binary number shown in table 2, which represents six situations respectively as listed in table 3. The associated bit of ‘andmask’ will be set to 1, if the case always appears in each exposure. Like the ‘andmask’, the ‘ormask’ information in fifth row is also a decimal integer determined by a six-bit binary number. The difference is that each bit of ‘ormask’ will be set to 1 if the related case happens in any exposure.
Table 2: Six bits of ‘Andmask’ and ‘Ormask’
6 5 4 3 2 1
Table 3: The significance of six bits of ‘Andmask’ and ‘Ormask’
Bit | Keyword | Comments |
---|---|---|
1 | BADCCD | bad pixel on CCD |
2 | BADPROFILE | bad profile in extraction |
3 | NOSKY | no sky information at this wavelength |
4 | BRIGHTSKY | sky level too high |
5 | BADCENTER | fiber trace out of the CCD |
6 | NODATA | no good data |
For a spectrum, if you want to check which case in table 3 has happened in the spectrum reduction process, you can firstly convert the decimal ‘Andmask’ and ‘Ormask’ to a six-bit binary number. Then, a case must has happened in each exposure if associated bit is 1 in binary ‘Andmask’, and a case must has happened at least one time if associated bit is 1 in binary ‘Ormask’.
In this section, we will introduce six LAMOST catalogs published in this data release, which can be available from the website of http://dr5.lamost.org/v1/catalogue. They are the LAMOST general catalog, the A, F, G and K type star catalog, the A type star catalog, the M dwarf catalog, the observed plate information catalog, and the input catalog respectively. Here, we should note that, the A, F, G and K type star catalog, the A type star catalog, and the M dwarf catalog are all subsets of the LAMOST general catalog. In addition, except galaxies, quasars and unknown objects, most majorities of objects not included in above three catalog are F, G and K type stars which do not satisfy the select criterion, and the remaining small fraction of these objects are O and B type stars, white dwarf stars, emission line stars, carbon stars, spectroscopic double stars and so on.
The following table 4, 5, 6, 7, 8 and 9 separately show all fields of above six catalogs, and also provide clear comment for each field. Most fields in these tables are explained in detail in sub-section 2.2.1, and we only introduce the fields which are not introduced in previous section.
In this sub-section, we will present the LAMOST general catalog. In this table, it includes objects obtained from LAMOST pilot survey and five year regular survey. For galaxy, QSO and M type stars, all of them are in the catalog. But for other type targets, we publish those with r band S/Ns larger than 2, or g band S/Ns larger than 5, or i band S/Ns larger than 5.
We totally published 9,017,844 spectra in this table, including 8,171,443 star spectra, 153,090 galaxy spectra, 51,133 quasar spectra, and 642,178 unknown object spectra. In addition, there are 5,807,771 spectra with g band S/Ns larger than 10, 7,707,278 spectra with i band S/Ns larger than 10, and 5,742,431 spectra with g band S/Ns larger than 10 and i band S/Ns larger than 10.
All parameters of this catalog are listed in the table 4, and most majorities of them are explained in section 2.2.1 in detail. In order to prevent saturation, we artificially add offsets to the equatorial coordinates from input catalog for a fraction of luminous stars during observation. Thus, we add four new fields in five catalogs except the Observed Plate Information Catalog, and they are ‘ra_obs’, ‘dec_obs’, ‘offsets’ and ‘offset_v’ respectively. The fields ‘ra_obs’ and ‘dec_obs’ are fiber pointing right ascension and declination during observation, and the fields ‘ra’ and ‘dec’ are the equatorial coordinates from the input catalog. The field ‘offsets’ represents whether there is a fiber offset during observation, and the field ‘offset_v’ gives the offset value of equatorial coordinator in the input catalog if the ‘offsets’ field is true. Besides, the fields ‘z’ and ‘z_err’ are redshift and its error respectively, and they are set to -9999 if the redshift is unable to be estimated.
On the website http://dr5.lamost.org/v1/catalogue, we provide two format LAMOST general catalogs, which include a FITS table and a CSV table, and the two catalog files have the same contents.
Table 4: LAMOST general catalog
Field (unit) | Type | Comment |
---|---|---|
obsid | long integer | Unique Spectra ID |
designation | varchar | Target Designation |
obsdate | char | Target Observation Date |
lmjd | char | Local Modified Julian Day |
mjd | char | Modified Julian Day |
planid | char | Plan Name |
spid | integer | Spectrograph ID |
fiberid | integer | Fiber ID |
ra_obs (degree) | float | Fiber Pointing Right Ascension |
dec_obs (degree) | float | Fiber Pointing Declination |
snru | float | Signal Noise Ratio of u filter |
snrg | float | Signal Noise Ratio of g filter |
snrr | float | Signal Noise Ratio of r filter |
snri | float | Signal Noise Ratio of i filter |
snrz | float | Signal Noise Ratio of z filter |
objtype | varchar | Object Type |
class | varchar | Spectra Type |
subclass | varchar | Stellar Sub-Class |
z | float | Redshift |
z_err | float | Redshift Uncertainty |
magtype | varchar | Target Magnitude Type |
mag1 (mag) | float | Associated Magnitude 1 |
mag2 (mag) | float | Associated Magnitude 2 |
mag3 (mag) | float | Associated Magnitude 3 |
mag4 (mag) | float | Associated Magnitude 4 |
mag5 (mag) | float | Associated Magnitude 5 |
mag6 (mag) | float | Associated Magnitude 6 |
mag7 (mag) | float | Associated Magnitude 7 |
tsource | varchar | Organization or person who submit input catalog |
fibertype | varchar | Fiber Type of target [Obj, Sky, F-std, Unused, PosErr, Dead] |
tfrom | varchar | Input catalog submitted by an organization or a person determined by the objsourc |
tcomment | varchar | Target ID from SDSS, UCAC4, PANSTAR and other catalogue |
offsets | bool | Whether there is a fiber offset during observation |
offset_v (arcsec) | float | If offset is true, it gives the offset distance from the target’s coordinator in input catalog |
ra (degree) | float | Right Ascension from input catalog |
dec (degree) | float | Declination from input catalog |
In this sub-section, we will introduce the A, F, G and K type star catalog. We totally published 5,348,664 spectra in this catalog, including 85,845 A type star spectra, 1,694,167 F type star spectra, 2,739,446 G type star spectra and 829,206 K type star spectra. These spectra are selected with the criterion of S/N in g band larger than 6 in dark nights, and S/N in g band larger than 15 in bright nights. Table 5 lists all fields of this catalog, the fields ‘teff’, ‘logg’, ‘feh’, ‘teff_err’, ‘logg_err’, ‘feh_err’ respectively provide the effective temperatures, surface gravities, metallicities and their errors, which are determined by the LAMOST Stellar Parameter pipeline. In addition, ‘rv’ and ‘rv_err’ are heliocentric radial velocity and uncertainty separately, and they are obtained by the software of ULYSS. It should be noted that A type stars in this catalog is a subset of the A type star catalog, and they all have high S/N spectra. We provide two format A, F, G and K type star catalogs, which include a FITS table and a CSV table, and can be available from the website http://dr5.lamost.org/v1/catalogue.
Table 5: A, F, G and K type star catalog
Field (unit) | Type | Comment |
---|---|---|
obsid | long integer | Unique Spectra ID |
designation | varchar | Target Designation |
obsdate | char | Target Observation Date |
lmjd | char | Local Modified Julian Day |
mjd | char | Modified Julian Day |
planid | char | Plan Name |
spid | integer | Spectrograph ID |
fiberid | integer | Fiber ID |
ra_obs (degree) | float | Fiber Pointing Right Ascension |
dec_obs (degree) | float | Fiber Pointing Declination |
snru | float | Signal Noise Ratio of u filter |
snrg | float | Signal Noise Ratio of g filter |
snrr | float | Signal Noise Ratio of r filter |
snri | float | Signal Noise Ratio of i filter |
snrz | float | Signal Noise Ratio of z filter |
objtype | varchar | Object Type |
class | varchar | Stellar Class |
subclass | varchar | Stellar Sub-Class |
z | float | redshift |
z_err | float | Uncertainty of redshift |
magtype | varchar | Target Magnitude Type |
mag1 (mag) | float | Associated Magnitude 1 |
mag2 (mag) | float | Associated Magnitude 2 |
mag3 (mag) | float | Associated Magnitude 3 |
mag4 (mag) | float | Associated Magnitude 4 |
mag5 (mag) | float | Associated Magnitude 5 |
mag6 (mag) | float | Associated Magnitude 6 |
mag7 (mag) | float | Associated Magnitude 7 |
tsource | varchar | Organization or person who submit input catalog |
fibertype | varchar | Fiber Type of target [Obj, Sky, F-std, Unused, PosErr, Dead] |
tfrom | varchar | Input catalog submitted by an organization or a person determined by the objsourc |
tcomment | varchar | Target ID from SDSS, UCAC4, PANSTAR and other catalogue |
offsets | bool | Whether there is a fiber offset during observation |
offset_v (arcsec) | float | If offset is true, it gives the offset distance from the target’s coordinator in input catalog |
ra (degree) | float | Right Ascension from input catalog |
dec (degree) | float | Declination from input catalog |
teff (K) | float | Effective Temperature which are obtained by the software of ULYSS |
teff_err (K) | float | Effective Temperature Uncertainty |
logg | float | Surface Gravity which are obtained by the software of ULYSS |
logg_err | float | Surface Gravity Uncertainty |
feh | float | Metallicity which are obtained by the software of ULYSS |
feh_err | float | Metallicity Uncertainty |
rv (km/s) | float | Heliocentric Radial Velocity |
rv_err (km/s) | float | Uncertainty of Heliocentric Radial Velocity |
In this sub-section, we will introduce the A type star catalog. We publish all 440,173 A type star spectra in this catalog, which are obtained during the pilot and general survey. Table 6 shows all fields of this catalog, the ‘class’ field presents the two-dimension spectral classification results, and nearly all A type stars have luminosity class, which are provided by the LAMOST analysis pipeline. The fields ‘kp6’, ‘kp12’, ‘kp18’, ‘halpha12’, ‘halpha24’, ‘halpha48’, ‘halpha70’, ‘hbeta12’, ‘hbeta24’, ‘hbeta48’, ‘hbeta60’, ‘hgamma12’, ‘hgamma24’, ‘hgamma48’, ‘hgamma54’, ‘hdelta12’, ‘hdelta24’, ‘hdelta48’, ‘hdelta64’, ‘paschen13’, ‘paschen142’ and ‘paschen242’ are Ca II K, Halpha, Hbeta, Hgamma, Hdelta, and Paschen line indices respectively, and the numbers in the names of these line index fields are the used band widths in the unit of angstrom. It should be noted that the three Paschen line indices use the local continua at 8467.5, 8598.0, and 8751.0 angstroms respectively. Besides, the fields ‘halpha_d02’, ‘hbeta_d02’, ‘hgama_d02’, and ‘hdelta_d02’ are the widths at 20% below the local continua of four balmer lines. If these line indices and line widths are not available, they are set to -9999. We provide two formats A type star catalogs, which include a FITS table and a CSV table, and can be download from the website http://dr5.lamost.org/v1/catalogue.
Table 6: A type star catalog
Field (unit) | Type | Comment |
---|---|---|
obsid | long integer | Unique Spectra ID |
designation | varchar | Target Designation |
obsdate | char | Target Observation Date |
lmjd | char | Local Modified Julian Day |
mjd | char | Modified Julian Day |
planid | char | Plan Name |
spid | integer | Spectrograph ID |
fiberid | integer | Fiber ID |
ra_obs (degree) | float | Fiber Pointing Right Ascension |
dec_obs (degree) | float | Fiber Pointing Declination |
snru | float | Signal Noise Ratio of u filter |
snrg | float | Signal Noise Ratio of g filter |
snrr | float | Signal Noise Ratio of r filter |
snri | float | Signal Noise Ratio of i filter |
snrz | float | Signal Noise Ratio of z filter |
objtype | varchar | Object Type |
class | varchar | Stellar Class |
subclass | varchar | Stellar Sub-Class |
z | float | redshift |
z_err | float | Uncertainty of redshift |
magtype | varchar | Target Magnitude Type |
mag1 (mag) | float | Associated Magnitude 1 |
mag2 (mag) | float | Associated Magnitude 2 |
mag3 (mag) | float | Associated Magnitude 3 |
mag4 (mag) | float | Associated Magnitude 4 |
mag5 (mag) | float | Associated Magnitude 5 |
mag6 (mag) | float | Associated Magnitude 6 |
mag7 (mag) | float | Associated Magnitude 7 |
tsource | varchar | Organization or person who submit input catalog |
fibertype | varchar | Fiber Type of target [Obj, Sky, F-std, Unused, PosErr, Dead] |
tfrom | varchar | Input catalog submitted by an organization or a person determined by the objsourc. |
tcomment | varchar | Target ID from SDSS, UCAC4, PANSTAR and other catalogue |
offsets | bool | Whether there is a fiber offset during observation |
offset_v (arcsec) | float | If offset is true, it gives the offset distance from the target’s coordinator in input catalog |
ra (degree) | float | Right Ascension from input catalog |
dec (degree) | float | Declination from input catalog |
kp12 (angstrom) | float | Ca II K line index with band widths of 12 angstrom |
kp18 (angstrom) | float | Ca II K line index with band widths of 18 angstrom |
kp6 (angstrom) | float | Ca II K line index with band widths of 6 angstrom |
hdelta12 (angstrom) | float | Hdelta Line Index with band widths of 12 angstrom |
hdelta24 (angstrom) | float | Hdelta Line Index with band widths of 24 angstrom |
hdelta48 (angstrom) | float | Hdelta Line Index with band widths of 48 angstrom |
hdelta64 (angstrom) | float | Hdelta Line Index with band widths of 64 angstrom |
hgamma12 (angstrom) | float | Hgamma Line Index with band widths of 12 angstrom |
hgamma24 (angstrom) | float | Hgamma Line Index with band widths of 24 angstrom |
hgamma48 (angstrom) | float | Hgamma Line Index with band widths of 48 angstrom |
hgamma54 (angstrom) | float | Hgamma Line Index with band widths of 54 angstrom |
hbeta12 (angstrom) | float | Hbeta Line Index with band widths of 12 angstrom |
hbeta24 (angstrom) | float | Hbeta Line Index with band widths of 24 angstrom |
hbeta48 (angstrom) | float | Hbeta Line Index with band widths of 48 angstrom |
hbeta60 (angstrom) | float | Hbeta Line Index with band widths of 60 angstrom |
halpha24 (angstrom) | float | Halpha Line Index with band widths of 24 angstrom |
halpha12 (angstrom) | float | Halpha Line Index with band widths of 12 angstrom |
halpha48 (angstrom) | float | Halpha Line Index with band widths of 48 angstrom |
halpha70 (angstrom) | float | Halpha Line Index with band widths of 70 angstrom |
paschen13 (angstrom) | float | Paschen line index from local continuum at 8467.5 with band widths of 13.0 |
paschen142 (angstrom) | float | Paschen line index from local continuum at 8598.0 with band widths of 42.0 |
paschen242 (angstrom) | float | Paschen line index from local continuum at 8751.0 with band widths of 42.0 |
halpha_d02 (angstrom) | float | A width at 20% below the local continuum of Halpha line |
hbeta_d02 (angstrom) | float | A width at 20% below the local continuum of Hbeta line |
hgama_d02 (angstrom) | float | A width at 20% below the local continuum of Hgama line |
hdelta_d02 (angstrom) | float | A width at 20% below the local continuum of Hdelta line |
In this sub-section, we will introduce the M dwarf catalog. We publish all 535,454 M dwarf spectra in this catalog, and their parameters are listed in table 7. The fields ‘tio1’, ‘tio1_err’, ‘tio2’, ‘tio2_err’, ‘tio3’, ‘tio3_err’, ‘tio4’, ‘tio4_err’, ‘tio5’, ‘tio5_err’, ‘cah1’, ‘cah1_err’, ‘cah2’, ‘cah2_err’, ‘cah3’, ‘cah3_err’, ‘caoh’, ‘caoh_err’, and ‘na’ are TiO, CaH, CaOH, and Na spectral line indices and their errors. Besides, we provide a metallicity sensitive parameter ‘zeta’ and its error ‘zeta_err’, and a magnetic activity flag of ‘type’. The value of ‘type’ includes 1, 0, and -9999, where 1 represents a M dwarf star has magnetic activity, 0 means a M dwarf star has no magnetic activity, and -9999 indicates it is unable to determine whether a M dwarf star has magnetic activity because of low S/N. In addition, ‘z’ and ‘z_err’ are redshift and uncertainty separately, and ‘z’ are obtained by the template match method. We provide two formats M dwarf catalogs, which include a FITS table and a CSV table, can be available from the website http://dr5.lamost.org/v1/catalogue.
Table 7: M dwarf catalog
Field (unit) | Type | Comment |
---|---|---|
obsid | long integer | Unique Spectra ID |
designation | varchar | Target Designation |
obsdate | float | Target Observation Date |
lmjd | char | Local Modified Julian Day |
mjd | char | Modified Julian Day |
planid | char | Plan Name |
spid | integer | Spectrograph ID |
fiberid | integer | Fiber ID |
ra_obs(degree) | float | Fiber Pointing Right Ascension |
dec_obs(degree) | float | Fiber Pointing Declination |
snru | float | Signal Noise Ratio of u filter |
snrg | float | Signal Noise Ratio of g filter |
snrr | float | Signal Noise Ratio of r filter |
snri | float | Signal Noise Ratio of I filter |
snrz | float | Signal Noise Ratio of z filter |
objtype | varchar | Object Type |
class | varchar | Stellar Class |
subclass | varchar | Stellar Sub-Class |
z | float | redshift |
z_err | float | Uncertainty of redshift |
magtype | varchar | Target Magnitude Type |
mag1 (mag) | float | Associated Magnitude 1 |
mag2 (mag) | float | Associated Magnitude 2 |
mag3 (mag) | float | Associated Magnitude 3 |
mag4 (mag) | float | Associated Magnitude 4 |
mag5 (mag) | float | Associated Magnitude 5 |
mag6 (mag) | float | Associated Magnitude 6 |
mag7 (mag) | float | Associated Magnitude 7 |
tsource | varchar | Organization or person who submit input catalog |
fibertype | varchar | Fiber Type of target [Obj, Sky, F-std, Unused, PosErr, Dead] |
tfrom | varchar | Input catalog submitted by an organization or a person determined by the objsourc |
tcomment | varchar | Target ID from SDSS, UCAC4, PANSTAR and other catalogue |
offsets | bool | Whether there is a fiber offset during observation |
offset_v (arcsec) | float | If offset is true, it gives the offset distance from the target’s coordinator in input catalog |
ra (degree) | float | Right Ascension from input catalog |
dec (degree) | float | Declination from input catalog |
ewha (angstrom) | float | Equivalent Width of Halpha line |
ewha_err (angstrom) | float | Equivalent Width Uncertainty of Halpha line |
tio5 | float | Spectral Indice of TiO5 |
cah2 | float | Spectral Indice of CaH2 |
cah3 | float | Spectral Indice of CaH3 |
tio1 | float | Spectral Indice of TiO1 |
tio2 | float | Spectral Indice of TiO2 |
tio3 | float | Spectral Indice of TiO3 |
tio4 | float | Spectral Indice of TiO4 |
cah1 | float | Spectral Indice of CaH1 |
caoh | float | Spectral Indice of CaOH |
tio5_err | float | Spectral Indice Error of TiO5 |
cah2_err | float | Spectral Indice Error of CaH2 |
cah3_err | float | Spectral Indice Error of CaH3 |
tio1_err | float | Spectral Indice Error of TiO1 |
tio2_err | float | Spectral Indice Error of TiO2 |
tio3_err | float | Spectral Indice Error of TiO3 |
tio4_err | Float | Spectral Indice Error of TiO4 |
cah1_err | float | Spectral Indice Error of CaH1 |
caoh_err | float | Spectral Indice Error of CaOH |
zeta | float | Metallicity Sensitive Parameter |
zeta_err | float | Error of Metallicity Sensitive Parameter |
type | integer | Magnetic Activity |
na (angstrom) | float | Line Indice of Na Line |
In this sub-section, we will introduce the observed plate information catalog. Besides ‘obsdate’ and ‘planid’ fields also in other four catalogs, we provide other seven basic information of 4,154 published plates in this catalog as described in table 8. The fields of ‘ra’ and ‘dec’ are right ascension and declination of center star of each plate, and the field ‘mag’ is the magnitude of center star. The field ‘seeing’ is the dome seeing of the first exposure, and the field ‘exptime’ is the total exposure time of n time exposures. Besides, the field ‘lmjm’ is the local modified Julian minute at the start time of each plate, and the ‘pid’ is the unique ID of each plate.
We provide a CSV table to download, which can be available from the website http://dr5.lamost.org/v1/catalogue.
Table 8: observed plate information catalog
Field (unit) | Type | Comment |
---|---|---|
pid | Integer | Plate ID |
obsdate | float | Target Observation Date |
planid | char | Plan Name |
ra (degree) | float | Right Ascension of center star |
dec (degree) | float | Declination of center star |
mag (mag) | float | Magnitude of center star |
seeing | float | Seeing of the first exposure |
exptime (second) | float | The total exposure time of n time exposures |
lmjm | Integer | Local Modified Julian Minute at the start time of each plate |
In this sub-section, we will introduce the Input catalog. This catalog includes 27 fields for 11,156,488 targets. There are three fields which are not included in above five tables, they are the ‘unitid’, ‘epoch’ and ‘tname’ fields respectively. The ‘unitid’ field is the ID of 4000 fiber units, and the ‘tname’ field provides unique ID of this catalog for each target. Besides, values of the ‘epoch’ field are all ‘J2000’. We provide a .txt table to download, which can be available from the website http://dr5.lamost.org/v1/catalogue.
Table 9: Input catalog
Field (unit) | Type | Comment |
---|---|---|
obsID | long integer | Unique Spectra ID |
obsDate | float | Target Observation Date |
planID | char | Plan Name |
spID | integer | Spectrograph ID |
fiberID | integer | Fiber ID |
unitid | char | ID of 4000 fiber unites |
ra_obs(degree) | float | Fiber Pointing Right Ascension |
dec_obs(degree) | float | Fiber Pointing Declination |
objtype | varchar | Object Type |
magtype | varchar | Target Magnitude Type |
mag1 (mag) | float | Associated Magnitude 1 |
mag2 (mag) | float | Associated Magnitude 2 |
mag3 (mag) | float | Associated Magnitude 3 |
mag4 (mag) | float | Associated Magnitude 4 |
mag5 (mag) | float | Associated Magnitude 5 |
mag6 (mag) | float | Associated Magnitude 6 |
mag7 (mag) | float | Associated Magnitude 7 |
tsource | varchar | Organization or person who submit input catalog |
fibertype | varchar | Fiber Type of target [Obj, Sky, F-std, Unused, PosErr, Dead] |
tfrom | varchar | Input catalog submitted by an organization or a person determined by the objsourc |
tcomment | varchar | Target ID from SDSS, UCAC4, PANSTAR and other catalogue |
offset | bool | Whether there is a fiber offset during observation |
offset_v (arcsec) | float | If offset is true, it gives the offset distance |
ra (degree) | float | Right Ascension from input catalog |
dec (degree) | float | Declination from input catalog |
epoch | char | J2000 |
tname | char | Unique ID for each targets in this catalog |